from collections import namedtuple from django.utils import six # Structure returned by DatabaseIntrospection.get_table_list() TableInfo = namedtuple('TableInfo', ['name', 'type']) # Structure returned by the DB-API cursor.description interface (PEP 249) FieldInfo = namedtuple('FieldInfo', 'name type_code display_size internal_size precision scale null_ok') class BaseDatabaseIntrospection(object): """ This class encapsulates all backend-specific introspection utilities """ data_types_reverse = {} def __init__(self, connection): self.connection = connection def get_field_type(self, data_type, description): """Hook for a database backend to use the cursor description to match a Django field type to a database column. For Oracle, the column data_type on its own is insufficient to distinguish between a FloatField and IntegerField, for example.""" return self.data_types_reverse[data_type] def table_name_converter(self, name): """Apply a conversion to the name for the purposes of comparison. The default table name converter is for case sensitive comparison. """ return name def column_name_converter(self, name): """ Apply a conversion to the column name for the purposes of comparison. Uses table_name_converter() by default. """ return self.table_name_converter(name) def table_names(self, cursor=None, include_views=False): """ Returns a list of names of all tables that exist in the database. The returned table list is sorted by Python's default sorting. We do NOT use database's ORDER BY here to avoid subtle differences in sorting order between databases. """ def get_names(cursor): return sorted(ti.name for ti in self.get_table_list(cursor) if include_views or ti.type == 't') if cursor is None: with self.connection.cursor() as cursor: return get_names(cursor) return get_names(cursor) def get_table_list(self, cursor): """ Returns an unsorted list of TableInfo named tuples of all tables and views that exist in the database. """ raise NotImplementedError('subclasses of BaseDatabaseIntrospection may require a get_table_list() method') def django_table_names(self, only_existing=False, include_views=True): """ Returns a list of all table names that have associated Django models and are in INSTALLED_APPS. If only_existing is True, the resulting list will only include the tables that actually exist in the database. """ from django.apps import apps from django.db import router tables = set() for app_config in apps.get_app_configs(): for model in router.get_migratable_models(app_config, self.connection.alias): if not model._meta.managed: continue tables.add(model._meta.db_table) tables.update(f.m2m_db_table() for f in model._meta.local_many_to_many) tables = list(tables) if only_existing: existing_tables = self.table_names(include_views=include_views) tables = [ t for t in tables if self.table_name_converter(t) in existing_tables ] return tables def installed_models(self, tables): "Returns a set of all models represented by the provided list of table names." from django.apps import apps from django.db import router all_models = [] for app_config in apps.get_app_configs(): all_models.extend(router.get_migratable_models(app_config, self.connection.alias)) tables = list(map(self.table_name_converter, tables)) return { m for m in all_models if self.table_name_converter(m._meta.db_table) in tables } def sequence_list(self): "Returns a list of information about all DB sequences for all models in all apps." from django.apps import apps from django.db import models, router sequence_list = [] for app_config in apps.get_app_configs(): for model in router.get_migratable_models(app_config, self.connection.alias): if not model._meta.managed: continue if model._meta.swapped: continue for f in model._meta.local_fields: if isinstance(f, models.AutoField): sequence_list.append({'table': model._meta.db_table, 'column': f.column}) break # Only one AutoField is allowed per model, so don't bother continuing. for f in model._meta.local_many_to_many: # If this is an m2m using an intermediate table, # we don't need to reset the sequence. if f.remote_field.through is None: sequence_list.append({'table': f.m2m_db_table(), 'column': None}) return sequence_list def get_key_columns(self, cursor, table_name): """ Backends can override this to return a list of (column_name, referenced_table_name, referenced_column_name) for all key columns in given table. """ raise NotImplementedError('subclasses of BaseDatabaseIntrospection may require a get_key_columns() method') def get_primary_key_column(self, cursor, table_name): """ Returns the name of the primary key column for the given table. """ for column in six.iteritems(self.get_indexes(cursor, table_name)): if column[1]['primary_key']: return column[0] return None def get_indexes(self, cursor, table_name): """ Returns a dictionary of indexed fieldname -> infodict for the given table, where each infodict is in the format: {'primary_key': boolean representing whether it's the primary key, 'unique': boolean representing whether it's a unique index} Only single-column indexes are introspected. """ raise NotImplementedError('subclasses of BaseDatabaseIntrospection may require a get_indexes() method') def get_constraints(self, cursor, table_name): """ Retrieves any constraints or keys (unique, pk, fk, check, index) across one or more columns. Returns a dict mapping constraint names to their attributes, where attributes is a dict with keys: * columns: List of columns this covers * primary_key: True if primary key, False otherwise * unique: True if this is a unique constraint, False otherwise * foreign_key: (table, column) of target, or None * check: True if check constraint, False otherwise * index: True if index, False otherwise. Some backends may return special constraint names that don't exist if they don't name constraints of a certain type (e.g. SQLite) """ raise NotImplementedError('subclasses of BaseDatabaseIntrospection may require a get_constraints() method')